Team:EPF Lausanne/Project immuno
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==A: The Immunotoxin is expressed and appears in the supernatant== | ==A: The Immunotoxin is expressed and appears in the supernatant== | ||
- | [[Image:EPFL Immuno growth.jpg|300px|thumb|right| | + | [[Image:EPFL Immuno growth.jpg|300px|thumb|right| <b>Asaia growth curve:</b> In blue, we can see the growth curve of E.coli containing the empty C3 plasmid. In red, we can see the growth of E.coli transformed with the C3 plasmid containing the Immunotoxin sequence. We could conclude that the expression of the Immunotoxin in high concetrations may prevent E.coli from growing. The spikes could indicate the clumping of cells due to Immunotoxin's action. ]] |
We tested expression of the immunotoxin in E.Coli (see [https://2010.igem.org/wiki/index.php?title=Team:EPF_Lausanne/Project/Materials_Methods Materials and Methods] for details). In a western blot analysis of whole cell lysates we could see bands corresponding to full length immunotoxin and possibly degraded fragments of the protein (see figure). The immunotoxin contains a PelB sequence that targets it for secretion into the periplasm. We concentrated the supernatant of both the immunotoxin and a control culture by running it through a filtering device with a 5 kDa cut-off. Running a western blot with these samples (see figure) we verified that the immunotoxin was found in the supernatant as expected. | We tested expression of the immunotoxin in E.Coli (see [https://2010.igem.org/wiki/index.php?title=Team:EPF_Lausanne/Project/Materials_Methods Materials and Methods] for details). In a western blot analysis of whole cell lysates we could see bands corresponding to full length immunotoxin and possibly degraded fragments of the protein (see figure). The immunotoxin contains a PelB sequence that targets it for secretion into the periplasm. We concentrated the supernatant of both the immunotoxin and a control culture by running it through a filtering device with a 5 kDa cut-off. Running a western blot with these samples (see figure) we verified that the immunotoxin was found in the supernatant as expected. | ||
Revision as of 19:27, 26 October 2010
Contents |
Proteins
We have chosen two different ways to target the parasite and prevent the malaria transmission through mosquitos. Our engineered bacteria could express either an immunotoxin, or two p-proteins, or even both for maximum efficiency.
The Immunotoxin is one of our tools to block transmission of malaria parasite in mosquitos. It is composed of two main parts : The first one is a single-chain antibody fragment (scFv) directed to Pbs2l, which is a surface membrane protein of Plasmodium berghei . The second part is a lytic peptide, Shiva-1, which acts by forming “pores” on the parasite’s membrane. The immunotoxin is supposed to specifically target and lyse the parasite.
P25 and P28 are a class of important proteins expressed on the membrane of different type of Plasmodium; we call this ensemble of evolutionary conserved proteins the P-proteins. They are mainly expressed on the mosquito-stage parasite (ookinete). The ookinete has been intensively studied by scientists, looking for an ideal transmission-blocking vaccine target.
Results
A: The Immunotoxin is expressed and appears in the supernatant
We tested expression of the immunotoxin in E.Coli (see Materials and Methods for details). In a western blot analysis of whole cell lysates we could see bands corresponding to full length immunotoxin and possibly degraded fragments of the protein (see figure). The immunotoxin contains a PelB sequence that targets it for secretion into the periplasm. We concentrated the supernatant of both the immunotoxin and a control culture by running it through a filtering device with a 5 kDa cut-off. Running a western blot with these samples (see figure) we verified that the immunotoxin was found in the supernatant as expected.
B: The P-proteins are not expressed
The same experiments were conducted for the proteins p25 and p28. No bands were detected on the western blots which leads us to the conclusion that these proteins were only very weakly expressed or not at all. This might be explained by the fact that we took the native sequence from Plasmodium falciparum . The genome of Plasmodium falciparum is very A-T-rich (put reference). We think that expression of p25 and p28 may be improved by codon optimizing it for expression in bacteria like E.Coli and Asaia like we did for the immunotoxin. Additional to the Western Blots we tried purifying the proteins using Ni-NTA columns. This still needs futher improvement.